Sampling-based optimal kinodynamic planning with motion primitives

Autor: Basak Sakcak, Gianni Ferretti, Maria Prandini, Luca Bascetta
Rok vydání: 2019
Předmět:
Zdroj: Autonomous Robots. 43:1715-1732
ISSN: 1573-7527
0929-5593
Popis: This paper proposes a novel sampling-based motion planner, which integrates in Rapidly exploring Random Tree star ( $$\hbox {RRT}^{\star }$$ ) a database of pre-computed motion primitives to alleviate its computational load and allow for motion planning in a dynamic or partially known environment. The database is built by considering a set of initial and final state pairs in some grid space, and determining for each pair an optimal trajectory that is compatible with the system dynamics and constraints, while minimizing a cost. Nodes are progressively added to the tree of feasible trajectories in the $$\hbox {RRT}^{\star }$$ algorithm by extracting at random a sample in the gridded state space and selecting the best obstacle-free motion primitive in the database that joins it to an existing node. The tree is rewired if some nodes can be reached from the new sampled state through an obstacle-free motion primitive with lower cost. The computationally more intensive part of motion planning is thus moved to the preliminary offline phase of the database construction at the price of some performance degradation due to gridding. Grid resolution can be tuned so as to compromise between (sub)optimality and size of the database. The planner is shown to be asymptotically optimal as the grid resolution goes to zero and the number of sampled states grows to infinity.
Databáze: OpenAIRE
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